Climate change and water Adaptation
Stewart J Cohen and Roger S Pulwarty
Abstract
In many parts of the world climate change is anticipated to result in greater
water scarcity Future adaptations may include technical changes that improve
water use efficiency demand mana gement (eg through metering and pricing)
and institut ional changes that improve the tradability of water rights The availability of water for each type of use may be affected by other compet ing uses
of the resource Consequently a complete analysis of the effects of climate
change on human water uses would consider cross-sector interactions including
the impacts of changes in water use eff icien cy and intent ional t ransfers of the use
of water from one sector to another The barriers to implementing adaptation measures include the inabil ity of some natural systems to adap t at the rate of
combined demographic pressures and climate incomplete understanding and
quantifying of water demands and impediments to the flow of timely and reliable
knowledge and information relevant for decision makers M any adaptation
measures are technology and efficiency based Early warning informat ion as well as decision support tools for long range planning should be based on a mixed
portfolio of experimental and scenario-based approaches for shared learning by
researchers and pract itioners This becomes an integrated watershed manage ment
approach in which adaptive management is an operational tool for learning We
examine two cases from western North America (the Okanagan and Colorado Rivers) to illustrate mechanisms for intera ctive le arning anticipatory
coordinat ion and communication
Key word adaptation climate change and water integrated watershed
management
1 Introducti on
Climate change poses major conceptual challenges to resource managers in addit ion to the
challenges caused by population and land use change As is widely acknowledged it is no
longer appropriate to assume that past hydrological conditions will continue into the future
The robustness of present water resources adaptat ions will be tested under a changing
climate Climate information services design ed to support adaptation will be important in coping with current and future climate ext remes and their effects on water resources
Useful informat ion may be available and can produce posit ive result s but it s effect ive use
for adaptat ion can be overwhelmed by rates and magnitudes of social economic and
environmental changes
Climate change and water Adaptation
Experience shows that
(1) Adaptat ions in many cases are driven by focusing on events that induce crises
learning and redesign and in which leadership and the public are engaged (2) Opportunit ies exist to learn from adaptive management pract ices that focus on
social networking and
(3) Long-term scenarios can bring focus on changes in extremes
Adverse effects of climate change on freshwater sy stems aggravate the impacts of other
s tresses such as populat ion growth changing economic act ivity land-use change and
urbanization Critical issues include (1) ensuring adequate water to maintain
environmental services that support economic and cultural benefits (2) ensuring
development adoption and evaluat ion of efficient technologies and (3) managing
informat ion needed to coordinate data collection and quality cont rol which will allow us to t ransform data and forecasts into accessible credible and usable infor mation for early
warning risk reduct ion and adaptat ion pract ices in the water resources sector Increasing
demands and aging infrastructure int roduce additional concerns Adaptive measures
recommended and employed to date include both demand and supply side app roaches
Examples include water recy cling r educe irrigat ion demand water markets economic incentives including metering pricing conjunctive surface- groundwater use increase
storage capacity and desalinat ion
Flexibility in operation systems (reservoirs etc) in terms of efficiency and buffers to
climate variations requir es re-exa minat ion of design criteria operating rules assumpt ions made from a l imited climate record and at tendant cont ingency planning The greatest
challenges wil l be in mult i-object ive planning and the informat ion management needed for
attendant decision-making processes and for assessing the quality of those decisions
Documenting the costs benefits and tradeoffs in pursuing and secur ing diverse values of
river systems (eg hydropower environment irrigat ion recr eat ion and aesthetics) are straightforward tasks As a result decision-making is very much a process of negotiating
acceptable outcomes among various interest s as opposed to one of simp ly reducing the
uncertainty of our knowledge of the physical system or increasing the operating efficiency
of designed systems (eg dams)
We examine two cases from western North Americ a (the Okanagan and Colorado Rivers)
to illustrate mechanisms for interact ive learning anticipatory coordination and
communication These two basins offer unique opportunit ies for identifying lessons for
s trategic learning on the evolution of cross-scale environmental risks over time the
development of a collaborative framework between research and water resources mana gement and for guidance on the development of informat ion services in support of
adaptation at the watershed scale
2 Cli mate change water scarcity andmanaging for multiple objectives
Recent reviews of the state of knowledge on impacts of climate change on water resourc es
(Kundzewicz et al 2007 Arnell et al 2001) have described the growing risk that climate
change will l ead to water scarcity in certain regions of the world Some semi-arid and subshy
humid regions such as Aust ralia and the Sahel have experienced more intense droughts
2
Climate change and water Adaptation
Aust ralia has responded with several water adaptation strategies including drought relief
programs use of recycled water replacement of open irrigation channels to reduce losses
and desalination (Henessey et al 2007)
The long-term adaptat ion challenge for watersheds experiencing both acute and chronic
water scarcity is the integration of concurrent driving forces into planning design and
operat ion of water systems If water systems continue to be planned with the explicit or
implicit assumpt ion of climate stationarity surprises and conflicts may emerge Milly et
al (2008) have proposed that water management frameworks should be adapted to non shy
s tat ionary climatic and hydrologic variables This would require r apid flow of information
from the scientific realm to water managers and pract it ioners
The need for this can be illust rated by the example of the Columbia Basin M odelling studies and surveys of water managers have indicated that concurrent changes in observed
and projected regional economic development and climate patterns would affect the
balancing of mana gement objectives including hydroele ctric product ion in-st ream flows
for aquatic ecosystems irrigation navigation flood control recreation and domest ic needs
(Cohen et al 2000 Cohen de Loumle et a l 2004) Barnett et al (2005) illustrate how a climate change scenario of earlier snowmelt and lower minimum flows during the summer
superimposed on existing reservoir operat ions could lead to 10-20 reductions in
hydroelectric production because of the requirement to protect in-stream flows for fish
Ima gine being forced to choose between hydroelectric product ion and fisheries protection
as part of a climate change adaptation strategy
Climate change will chal lenge e xisting man agement models that assume stationarity in
climatic and hydrologic indicators Note that this is not restricted to changes in averages
It may be possible that changes in the probability of exceeding certain thresholds even
without a change in the aver age might force the alteration of operating rules for a water system A process would therefore be needed to facilitate the testing of alternate
mana gement frameworks for water systems under various scenarios of climate change and
development This could explicitly include the evaluation of the effectiveness of
individual adaptation measures and combinat ions of measures
3 Creating a framework for adapting to climate change
Various forcing factors can interact with each other creating p roblems of increasing
complexity M anaging water systems to meet multiple objectives requires system
knowledge both technical and quant itat ive as well as experient ial from the perspect ives of
planners user groups technical experts and governments This suggests that a combination of quant itat ive modelling and dialogue processes should be explored to see if
that provides the basis for an evaluation of climate change problems facing water systems
(eg NeWater p rojectmdashht tpwwwnewaterinfo)
Two main components are needed for this approach to be carried out The research
component would be organized as a Participatory Integrated Assessment (PIA) in which
dialogue processes are used as research tools that would complement quant itative models
(Tansey et al 2002) and visualizat ion (Sheppard 2005) and indeed could facil itate the
3
Climate change and water Adaptation
development of decision support models (van den Be lt 2004) A PIA could enga ge a wide
range of local and system knowledge holders as wel l as researchers from various
disciplinary backgrounds (Yohe et al 2007) The implementation component would be facilitated through ldquo mainstreamingrdquo in which policies and measures associated with
climate change are direct ly integr ated into development planning and ongoing decision
making (Klein et al 2007) M ainst reaming cl imate change adaptation into exist ing water
mana gement systems is being considered in several case studies but barriers have been
encountered such as a) gaps in stakeholder part icipation during key phases of project
design and imp lementat ion and b) p ost -disaster pressures to quickly return a system or
place to pre-disaster conditions rather that incorporate longer-term development policies
(Adger et al 2007)
PIA and mainstreaming are not typical act ivities within the research and policy communit ies Informat ion flow from providers of climate informat ion to policy makers
first goes through a t ranslation process Figure 1A illust rates one component of thismdashthe
t ranslation of climate infor mation into impacts information that would be of interest to
pract it ioners from various fields (such as engineering or public health)
Figure 1B plac es this within the lar ger context of multiple flows of information from
climate scienc e research and c limate impacts research to pract it ioners and policy makers
The long term sustainability of these processes depends on whether they can increase local
capacity to serve as champions for them Climate change adaptat ion is p rimarily a local
and regional scale act ivity undertaken within a national or internat ional discourse that provides the necessary background for such initiatives to be undertaken If PIA and
mainst reaming can succeed in providing shared learning experiences for local
s takeholders some of these individuals may become extension agents for climate change
learning and act ion in a way that researchers and nat ional actors could not Subsequent ly
the roles of researchers and stakeholders would eventually be reversed and we would begin to see more locally led adaptation initiat ives in which researchers and national
actors would serve as resources support ing local champions
4 Case studiesmdashColorado andO kanagan Basins
The Colorado and Okanagan Basins are semi-arid regions in western North America The
Okanagan is a smal l sub-watershed within the Columbia Basin In this sect ion we
describe e xperiences with applying PIA in these two cases
Case study The Colorado River
The Colorado River (Figure 2) supplies much of the water needs of seven US states two
M exican states and thirty-four Native American t ribes (Pulwarty et al 2005) These
represent a population of 25 million inhabitants with a projection of 38 million by the year
2020 which receive at least some part of their water from the Colorado In only 80 years the population of the seven Colorado River basin states has increased by 800 percent
adding 44 million people Nevada Arizona and Colorado all in the Colorado River basin
and heavily dependent on Colorado River water for municipal and agricultural uses were
the fastest growing states in the nat ion between 1990 and 2000 About 12 mi llion residents
4
Climate change and water Adaptation
live along the border a number projected to as much as double (to 24 million) by 2020
(Bennet t and Herzog 2000)
Figure 1 A) Flow of cl imate change information to practitioners (upper panel) B)
Additional pathways for climate information to reach decision makers (lower panel)
Source Cohen and Waddell in press
The expansion of population and economic activit ies across the western US and
concurrent responses to drought events have resulted in significant st ructural adaptations
including hundr eds of reservoirs irrigat ion projects and groundwater withdrawals being developed in semi- arid environments As widely documented the allocat ion of Colorado
River water to basin states occurred during the wettest period in over 400 years (ie 1905ndash
1925) The result ing complexity is that decisions on the Colorado Basin cross several
temporal and spatial scales (see Table 1) The Colorado Basin is also home to one of the
longest running adapt ive environmental assessment and management programs in the
country (Pulwarty and Melis 2001)
5
Climate change and water Adaptation
Only a small portion of the full Colorado Basin area (about 15) supplies most (85) of
its flow The Colorado system has experienced below aver age condit ions in 7 of the last 9 years Unt il the last few years the expectat ion of Colorado River managers was that
s ignificant shortages in the Lower Basin would not occur unt il after 2030 Natural inflows
into the basin have been poor for several years 62 of the 30-year average in 2000 59
(2001) 25 in 2002 51 (2003) 49 (2004) 105 (2005) 71 (2006) 68 (2007)
and 105 (projected for 2008) The region has also experienced a 08o C rise in temperature
over the past 50 years which has resulted in increasing losses of snowpack exacerbating
drought conditions through evaporat ion vegetat ion st ress water demands reduced soil
moisture It is estimated that 12-15 years of average conditions (based on the past 100
years) are needed to restore the basin to pre-2000 levels This recent experience il lustrates
that lsquocriticalrsquo conditions already exist in the basin (Pulwarty et al 2005)
Figure 2 Colorado River Basin
Estimates from 12 AR4 models show that with increased warming and evaporat ion
concurrent runoff decreases could reach 20 by 2050 and 30 at the end of 21st century
(Milly et al 2005) Under such condit ions together with projected withdrawals the
requirements of the Colorado River Compact may only be met 60ndash75 of the time by
2025 (Christensen et al 2004) Some studies estimate that by 2050 the average moisture
conditions in the south-western USA could equal the conditions observed in the 1950s
6
Con formato Ingleacutes
(Reino Unido)
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
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constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
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Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
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12
Climate change and water Adaptation
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Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
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Effects of Climate Change on the Hydrology and Water Resources of the Colorado
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Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
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Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
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Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
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OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
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Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
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Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
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Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Experience shows that
(1) Adaptat ions in many cases are driven by focusing on events that induce crises
learning and redesign and in which leadership and the public are engaged (2) Opportunit ies exist to learn from adaptive management pract ices that focus on
social networking and
(3) Long-term scenarios can bring focus on changes in extremes
Adverse effects of climate change on freshwater sy stems aggravate the impacts of other
s tresses such as populat ion growth changing economic act ivity land-use change and
urbanization Critical issues include (1) ensuring adequate water to maintain
environmental services that support economic and cultural benefits (2) ensuring
development adoption and evaluat ion of efficient technologies and (3) managing
informat ion needed to coordinate data collection and quality cont rol which will allow us to t ransform data and forecasts into accessible credible and usable infor mation for early
warning risk reduct ion and adaptat ion pract ices in the water resources sector Increasing
demands and aging infrastructure int roduce additional concerns Adaptive measures
recommended and employed to date include both demand and supply side app roaches
Examples include water recy cling r educe irrigat ion demand water markets economic incentives including metering pricing conjunctive surface- groundwater use increase
storage capacity and desalinat ion
Flexibility in operation systems (reservoirs etc) in terms of efficiency and buffers to
climate variations requir es re-exa minat ion of design criteria operating rules assumpt ions made from a l imited climate record and at tendant cont ingency planning The greatest
challenges wil l be in mult i-object ive planning and the informat ion management needed for
attendant decision-making processes and for assessing the quality of those decisions
Documenting the costs benefits and tradeoffs in pursuing and secur ing diverse values of
river systems (eg hydropower environment irrigat ion recr eat ion and aesthetics) are straightforward tasks As a result decision-making is very much a process of negotiating
acceptable outcomes among various interest s as opposed to one of simp ly reducing the
uncertainty of our knowledge of the physical system or increasing the operating efficiency
of designed systems (eg dams)
We examine two cases from western North Americ a (the Okanagan and Colorado Rivers)
to illustrate mechanisms for interact ive learning anticipatory coordination and
communication These two basins offer unique opportunit ies for identifying lessons for
s trategic learning on the evolution of cross-scale environmental risks over time the
development of a collaborative framework between research and water resources mana gement and for guidance on the development of informat ion services in support of
adaptation at the watershed scale
2 Cli mate change water scarcity andmanaging for multiple objectives
Recent reviews of the state of knowledge on impacts of climate change on water resourc es
(Kundzewicz et al 2007 Arnell et al 2001) have described the growing risk that climate
change will l ead to water scarcity in certain regions of the world Some semi-arid and subshy
humid regions such as Aust ralia and the Sahel have experienced more intense droughts
2
Climate change and water Adaptation
Aust ralia has responded with several water adaptation strategies including drought relief
programs use of recycled water replacement of open irrigation channels to reduce losses
and desalination (Henessey et al 2007)
The long-term adaptat ion challenge for watersheds experiencing both acute and chronic
water scarcity is the integration of concurrent driving forces into planning design and
operat ion of water systems If water systems continue to be planned with the explicit or
implicit assumpt ion of climate stationarity surprises and conflicts may emerge Milly et
al (2008) have proposed that water management frameworks should be adapted to non shy
s tat ionary climatic and hydrologic variables This would require r apid flow of information
from the scientific realm to water managers and pract it ioners
The need for this can be illust rated by the example of the Columbia Basin M odelling studies and surveys of water managers have indicated that concurrent changes in observed
and projected regional economic development and climate patterns would affect the
balancing of mana gement objectives including hydroele ctric product ion in-st ream flows
for aquatic ecosystems irrigation navigation flood control recreation and domest ic needs
(Cohen et al 2000 Cohen de Loumle et a l 2004) Barnett et al (2005) illustrate how a climate change scenario of earlier snowmelt and lower minimum flows during the summer
superimposed on existing reservoir operat ions could lead to 10-20 reductions in
hydroelectric production because of the requirement to protect in-stream flows for fish
Ima gine being forced to choose between hydroelectric product ion and fisheries protection
as part of a climate change adaptation strategy
Climate change will chal lenge e xisting man agement models that assume stationarity in
climatic and hydrologic indicators Note that this is not restricted to changes in averages
It may be possible that changes in the probability of exceeding certain thresholds even
without a change in the aver age might force the alteration of operating rules for a water system A process would therefore be needed to facilitate the testing of alternate
mana gement frameworks for water systems under various scenarios of climate change and
development This could explicitly include the evaluation of the effectiveness of
individual adaptation measures and combinat ions of measures
3 Creating a framework for adapting to climate change
Various forcing factors can interact with each other creating p roblems of increasing
complexity M anaging water systems to meet multiple objectives requires system
knowledge both technical and quant itat ive as well as experient ial from the perspect ives of
planners user groups technical experts and governments This suggests that a combination of quant itat ive modelling and dialogue processes should be explored to see if
that provides the basis for an evaluation of climate change problems facing water systems
(eg NeWater p rojectmdashht tpwwwnewaterinfo)
Two main components are needed for this approach to be carried out The research
component would be organized as a Participatory Integrated Assessment (PIA) in which
dialogue processes are used as research tools that would complement quant itative models
(Tansey et al 2002) and visualizat ion (Sheppard 2005) and indeed could facil itate the
3
Climate change and water Adaptation
development of decision support models (van den Be lt 2004) A PIA could enga ge a wide
range of local and system knowledge holders as wel l as researchers from various
disciplinary backgrounds (Yohe et al 2007) The implementation component would be facilitated through ldquo mainstreamingrdquo in which policies and measures associated with
climate change are direct ly integr ated into development planning and ongoing decision
making (Klein et al 2007) M ainst reaming cl imate change adaptation into exist ing water
mana gement systems is being considered in several case studies but barriers have been
encountered such as a) gaps in stakeholder part icipation during key phases of project
design and imp lementat ion and b) p ost -disaster pressures to quickly return a system or
place to pre-disaster conditions rather that incorporate longer-term development policies
(Adger et al 2007)
PIA and mainstreaming are not typical act ivities within the research and policy communit ies Informat ion flow from providers of climate informat ion to policy makers
first goes through a t ranslation process Figure 1A illust rates one component of thismdashthe
t ranslation of climate infor mation into impacts information that would be of interest to
pract it ioners from various fields (such as engineering or public health)
Figure 1B plac es this within the lar ger context of multiple flows of information from
climate scienc e research and c limate impacts research to pract it ioners and policy makers
The long term sustainability of these processes depends on whether they can increase local
capacity to serve as champions for them Climate change adaptat ion is p rimarily a local
and regional scale act ivity undertaken within a national or internat ional discourse that provides the necessary background for such initiatives to be undertaken If PIA and
mainst reaming can succeed in providing shared learning experiences for local
s takeholders some of these individuals may become extension agents for climate change
learning and act ion in a way that researchers and nat ional actors could not Subsequent ly
the roles of researchers and stakeholders would eventually be reversed and we would begin to see more locally led adaptation initiat ives in which researchers and national
actors would serve as resources support ing local champions
4 Case studiesmdashColorado andO kanagan Basins
The Colorado and Okanagan Basins are semi-arid regions in western North America The
Okanagan is a smal l sub-watershed within the Columbia Basin In this sect ion we
describe e xperiences with applying PIA in these two cases
Case study The Colorado River
The Colorado River (Figure 2) supplies much of the water needs of seven US states two
M exican states and thirty-four Native American t ribes (Pulwarty et al 2005) These
represent a population of 25 million inhabitants with a projection of 38 million by the year
2020 which receive at least some part of their water from the Colorado In only 80 years the population of the seven Colorado River basin states has increased by 800 percent
adding 44 million people Nevada Arizona and Colorado all in the Colorado River basin
and heavily dependent on Colorado River water for municipal and agricultural uses were
the fastest growing states in the nat ion between 1990 and 2000 About 12 mi llion residents
4
Climate change and water Adaptation
live along the border a number projected to as much as double (to 24 million) by 2020
(Bennet t and Herzog 2000)
Figure 1 A) Flow of cl imate change information to practitioners (upper panel) B)
Additional pathways for climate information to reach decision makers (lower panel)
Source Cohen and Waddell in press
The expansion of population and economic activit ies across the western US and
concurrent responses to drought events have resulted in significant st ructural adaptations
including hundr eds of reservoirs irrigat ion projects and groundwater withdrawals being developed in semi- arid environments As widely documented the allocat ion of Colorado
River water to basin states occurred during the wettest period in over 400 years (ie 1905ndash
1925) The result ing complexity is that decisions on the Colorado Basin cross several
temporal and spatial scales (see Table 1) The Colorado Basin is also home to one of the
longest running adapt ive environmental assessment and management programs in the
country (Pulwarty and Melis 2001)
5
Climate change and water Adaptation
Only a small portion of the full Colorado Basin area (about 15) supplies most (85) of
its flow The Colorado system has experienced below aver age condit ions in 7 of the last 9 years Unt il the last few years the expectat ion of Colorado River managers was that
s ignificant shortages in the Lower Basin would not occur unt il after 2030 Natural inflows
into the basin have been poor for several years 62 of the 30-year average in 2000 59
(2001) 25 in 2002 51 (2003) 49 (2004) 105 (2005) 71 (2006) 68 (2007)
and 105 (projected for 2008) The region has also experienced a 08o C rise in temperature
over the past 50 years which has resulted in increasing losses of snowpack exacerbating
drought conditions through evaporat ion vegetat ion st ress water demands reduced soil
moisture It is estimated that 12-15 years of average conditions (based on the past 100
years) are needed to restore the basin to pre-2000 levels This recent experience il lustrates
that lsquocriticalrsquo conditions already exist in the basin (Pulwarty et al 2005)
Figure 2 Colorado River Basin
Estimates from 12 AR4 models show that with increased warming and evaporat ion
concurrent runoff decreases could reach 20 by 2050 and 30 at the end of 21st century
(Milly et al 2005) Under such condit ions together with projected withdrawals the
requirements of the Colorado River Compact may only be met 60ndash75 of the time by
2025 (Christensen et al 2004) Some studies estimate that by 2050 the average moisture
conditions in the south-western USA could equal the conditions observed in the 1950s
6
Con formato Ingleacutes
(Reino Unido)
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Aust ralia has responded with several water adaptation strategies including drought relief
programs use of recycled water replacement of open irrigation channels to reduce losses
and desalination (Henessey et al 2007)
The long-term adaptat ion challenge for watersheds experiencing both acute and chronic
water scarcity is the integration of concurrent driving forces into planning design and
operat ion of water systems If water systems continue to be planned with the explicit or
implicit assumpt ion of climate stationarity surprises and conflicts may emerge Milly et
al (2008) have proposed that water management frameworks should be adapted to non shy
s tat ionary climatic and hydrologic variables This would require r apid flow of information
from the scientific realm to water managers and pract it ioners
The need for this can be illust rated by the example of the Columbia Basin M odelling studies and surveys of water managers have indicated that concurrent changes in observed
and projected regional economic development and climate patterns would affect the
balancing of mana gement objectives including hydroele ctric product ion in-st ream flows
for aquatic ecosystems irrigation navigation flood control recreation and domest ic needs
(Cohen et al 2000 Cohen de Loumle et a l 2004) Barnett et al (2005) illustrate how a climate change scenario of earlier snowmelt and lower minimum flows during the summer
superimposed on existing reservoir operat ions could lead to 10-20 reductions in
hydroelectric production because of the requirement to protect in-stream flows for fish
Ima gine being forced to choose between hydroelectric product ion and fisheries protection
as part of a climate change adaptation strategy
Climate change will chal lenge e xisting man agement models that assume stationarity in
climatic and hydrologic indicators Note that this is not restricted to changes in averages
It may be possible that changes in the probability of exceeding certain thresholds even
without a change in the aver age might force the alteration of operating rules for a water system A process would therefore be needed to facilitate the testing of alternate
mana gement frameworks for water systems under various scenarios of climate change and
development This could explicitly include the evaluation of the effectiveness of
individual adaptation measures and combinat ions of measures
3 Creating a framework for adapting to climate change
Various forcing factors can interact with each other creating p roblems of increasing
complexity M anaging water systems to meet multiple objectives requires system
knowledge both technical and quant itat ive as well as experient ial from the perspect ives of
planners user groups technical experts and governments This suggests that a combination of quant itat ive modelling and dialogue processes should be explored to see if
that provides the basis for an evaluation of climate change problems facing water systems
(eg NeWater p rojectmdashht tpwwwnewaterinfo)
Two main components are needed for this approach to be carried out The research
component would be organized as a Participatory Integrated Assessment (PIA) in which
dialogue processes are used as research tools that would complement quant itative models
(Tansey et al 2002) and visualizat ion (Sheppard 2005) and indeed could facil itate the
3
Climate change and water Adaptation
development of decision support models (van den Be lt 2004) A PIA could enga ge a wide
range of local and system knowledge holders as wel l as researchers from various
disciplinary backgrounds (Yohe et al 2007) The implementation component would be facilitated through ldquo mainstreamingrdquo in which policies and measures associated with
climate change are direct ly integr ated into development planning and ongoing decision
making (Klein et al 2007) M ainst reaming cl imate change adaptation into exist ing water
mana gement systems is being considered in several case studies but barriers have been
encountered such as a) gaps in stakeholder part icipation during key phases of project
design and imp lementat ion and b) p ost -disaster pressures to quickly return a system or
place to pre-disaster conditions rather that incorporate longer-term development policies
(Adger et al 2007)
PIA and mainstreaming are not typical act ivities within the research and policy communit ies Informat ion flow from providers of climate informat ion to policy makers
first goes through a t ranslation process Figure 1A illust rates one component of thismdashthe
t ranslation of climate infor mation into impacts information that would be of interest to
pract it ioners from various fields (such as engineering or public health)
Figure 1B plac es this within the lar ger context of multiple flows of information from
climate scienc e research and c limate impacts research to pract it ioners and policy makers
The long term sustainability of these processes depends on whether they can increase local
capacity to serve as champions for them Climate change adaptat ion is p rimarily a local
and regional scale act ivity undertaken within a national or internat ional discourse that provides the necessary background for such initiatives to be undertaken If PIA and
mainst reaming can succeed in providing shared learning experiences for local
s takeholders some of these individuals may become extension agents for climate change
learning and act ion in a way that researchers and nat ional actors could not Subsequent ly
the roles of researchers and stakeholders would eventually be reversed and we would begin to see more locally led adaptation initiat ives in which researchers and national
actors would serve as resources support ing local champions
4 Case studiesmdashColorado andO kanagan Basins
The Colorado and Okanagan Basins are semi-arid regions in western North America The
Okanagan is a smal l sub-watershed within the Columbia Basin In this sect ion we
describe e xperiences with applying PIA in these two cases
Case study The Colorado River
The Colorado River (Figure 2) supplies much of the water needs of seven US states two
M exican states and thirty-four Native American t ribes (Pulwarty et al 2005) These
represent a population of 25 million inhabitants with a projection of 38 million by the year
2020 which receive at least some part of their water from the Colorado In only 80 years the population of the seven Colorado River basin states has increased by 800 percent
adding 44 million people Nevada Arizona and Colorado all in the Colorado River basin
and heavily dependent on Colorado River water for municipal and agricultural uses were
the fastest growing states in the nat ion between 1990 and 2000 About 12 mi llion residents
4
Climate change and water Adaptation
live along the border a number projected to as much as double (to 24 million) by 2020
(Bennet t and Herzog 2000)
Figure 1 A) Flow of cl imate change information to practitioners (upper panel) B)
Additional pathways for climate information to reach decision makers (lower panel)
Source Cohen and Waddell in press
The expansion of population and economic activit ies across the western US and
concurrent responses to drought events have resulted in significant st ructural adaptations
including hundr eds of reservoirs irrigat ion projects and groundwater withdrawals being developed in semi- arid environments As widely documented the allocat ion of Colorado
River water to basin states occurred during the wettest period in over 400 years (ie 1905ndash
1925) The result ing complexity is that decisions on the Colorado Basin cross several
temporal and spatial scales (see Table 1) The Colorado Basin is also home to one of the
longest running adapt ive environmental assessment and management programs in the
country (Pulwarty and Melis 2001)
5
Climate change and water Adaptation
Only a small portion of the full Colorado Basin area (about 15) supplies most (85) of
its flow The Colorado system has experienced below aver age condit ions in 7 of the last 9 years Unt il the last few years the expectat ion of Colorado River managers was that
s ignificant shortages in the Lower Basin would not occur unt il after 2030 Natural inflows
into the basin have been poor for several years 62 of the 30-year average in 2000 59
(2001) 25 in 2002 51 (2003) 49 (2004) 105 (2005) 71 (2006) 68 (2007)
and 105 (projected for 2008) The region has also experienced a 08o C rise in temperature
over the past 50 years which has resulted in increasing losses of snowpack exacerbating
drought conditions through evaporat ion vegetat ion st ress water demands reduced soil
moisture It is estimated that 12-15 years of average conditions (based on the past 100
years) are needed to restore the basin to pre-2000 levels This recent experience il lustrates
that lsquocriticalrsquo conditions already exist in the basin (Pulwarty et al 2005)
Figure 2 Colorado River Basin
Estimates from 12 AR4 models show that with increased warming and evaporat ion
concurrent runoff decreases could reach 20 by 2050 and 30 at the end of 21st century
(Milly et al 2005) Under such condit ions together with projected withdrawals the
requirements of the Colorado River Compact may only be met 60ndash75 of the time by
2025 (Christensen et al 2004) Some studies estimate that by 2050 the average moisture
conditions in the south-western USA could equal the conditions observed in the 1950s
6
Con formato Ingleacutes
(Reino Unido)
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
development of decision support models (van den Be lt 2004) A PIA could enga ge a wide
range of local and system knowledge holders as wel l as researchers from various
disciplinary backgrounds (Yohe et al 2007) The implementation component would be facilitated through ldquo mainstreamingrdquo in which policies and measures associated with
climate change are direct ly integr ated into development planning and ongoing decision
making (Klein et al 2007) M ainst reaming cl imate change adaptation into exist ing water
mana gement systems is being considered in several case studies but barriers have been
encountered such as a) gaps in stakeholder part icipation during key phases of project
design and imp lementat ion and b) p ost -disaster pressures to quickly return a system or
place to pre-disaster conditions rather that incorporate longer-term development policies
(Adger et al 2007)
PIA and mainstreaming are not typical act ivities within the research and policy communit ies Informat ion flow from providers of climate informat ion to policy makers
first goes through a t ranslation process Figure 1A illust rates one component of thismdashthe
t ranslation of climate infor mation into impacts information that would be of interest to
pract it ioners from various fields (such as engineering or public health)
Figure 1B plac es this within the lar ger context of multiple flows of information from
climate scienc e research and c limate impacts research to pract it ioners and policy makers
The long term sustainability of these processes depends on whether they can increase local
capacity to serve as champions for them Climate change adaptat ion is p rimarily a local
and regional scale act ivity undertaken within a national or internat ional discourse that provides the necessary background for such initiatives to be undertaken If PIA and
mainst reaming can succeed in providing shared learning experiences for local
s takeholders some of these individuals may become extension agents for climate change
learning and act ion in a way that researchers and nat ional actors could not Subsequent ly
the roles of researchers and stakeholders would eventually be reversed and we would begin to see more locally led adaptation initiat ives in which researchers and national
actors would serve as resources support ing local champions
4 Case studiesmdashColorado andO kanagan Basins
The Colorado and Okanagan Basins are semi-arid regions in western North America The
Okanagan is a smal l sub-watershed within the Columbia Basin In this sect ion we
describe e xperiences with applying PIA in these two cases
Case study The Colorado River
The Colorado River (Figure 2) supplies much of the water needs of seven US states two
M exican states and thirty-four Native American t ribes (Pulwarty et al 2005) These
represent a population of 25 million inhabitants with a projection of 38 million by the year
2020 which receive at least some part of their water from the Colorado In only 80 years the population of the seven Colorado River basin states has increased by 800 percent
adding 44 million people Nevada Arizona and Colorado all in the Colorado River basin
and heavily dependent on Colorado River water for municipal and agricultural uses were
the fastest growing states in the nat ion between 1990 and 2000 About 12 mi llion residents
4
Climate change and water Adaptation
live along the border a number projected to as much as double (to 24 million) by 2020
(Bennet t and Herzog 2000)
Figure 1 A) Flow of cl imate change information to practitioners (upper panel) B)
Additional pathways for climate information to reach decision makers (lower panel)
Source Cohen and Waddell in press
The expansion of population and economic activit ies across the western US and
concurrent responses to drought events have resulted in significant st ructural adaptations
including hundr eds of reservoirs irrigat ion projects and groundwater withdrawals being developed in semi- arid environments As widely documented the allocat ion of Colorado
River water to basin states occurred during the wettest period in over 400 years (ie 1905ndash
1925) The result ing complexity is that decisions on the Colorado Basin cross several
temporal and spatial scales (see Table 1) The Colorado Basin is also home to one of the
longest running adapt ive environmental assessment and management programs in the
country (Pulwarty and Melis 2001)
5
Climate change and water Adaptation
Only a small portion of the full Colorado Basin area (about 15) supplies most (85) of
its flow The Colorado system has experienced below aver age condit ions in 7 of the last 9 years Unt il the last few years the expectat ion of Colorado River managers was that
s ignificant shortages in the Lower Basin would not occur unt il after 2030 Natural inflows
into the basin have been poor for several years 62 of the 30-year average in 2000 59
(2001) 25 in 2002 51 (2003) 49 (2004) 105 (2005) 71 (2006) 68 (2007)
and 105 (projected for 2008) The region has also experienced a 08o C rise in temperature
over the past 50 years which has resulted in increasing losses of snowpack exacerbating
drought conditions through evaporat ion vegetat ion st ress water demands reduced soil
moisture It is estimated that 12-15 years of average conditions (based on the past 100
years) are needed to restore the basin to pre-2000 levels This recent experience il lustrates
that lsquocriticalrsquo conditions already exist in the basin (Pulwarty et al 2005)
Figure 2 Colorado River Basin
Estimates from 12 AR4 models show that with increased warming and evaporat ion
concurrent runoff decreases could reach 20 by 2050 and 30 at the end of 21st century
(Milly et al 2005) Under such condit ions together with projected withdrawals the
requirements of the Colorado River Compact may only be met 60ndash75 of the time by
2025 (Christensen et al 2004) Some studies estimate that by 2050 the average moisture
conditions in the south-western USA could equal the conditions observed in the 1950s
6
Con formato Ingleacutes
(Reino Unido)
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
live along the border a number projected to as much as double (to 24 million) by 2020
(Bennet t and Herzog 2000)
Figure 1 A) Flow of cl imate change information to practitioners (upper panel) B)
Additional pathways for climate information to reach decision makers (lower panel)
Source Cohen and Waddell in press
The expansion of population and economic activit ies across the western US and
concurrent responses to drought events have resulted in significant st ructural adaptations
including hundr eds of reservoirs irrigat ion projects and groundwater withdrawals being developed in semi- arid environments As widely documented the allocat ion of Colorado
River water to basin states occurred during the wettest period in over 400 years (ie 1905ndash
1925) The result ing complexity is that decisions on the Colorado Basin cross several
temporal and spatial scales (see Table 1) The Colorado Basin is also home to one of the
longest running adapt ive environmental assessment and management programs in the
country (Pulwarty and Melis 2001)
5
Climate change and water Adaptation
Only a small portion of the full Colorado Basin area (about 15) supplies most (85) of
its flow The Colorado system has experienced below aver age condit ions in 7 of the last 9 years Unt il the last few years the expectat ion of Colorado River managers was that
s ignificant shortages in the Lower Basin would not occur unt il after 2030 Natural inflows
into the basin have been poor for several years 62 of the 30-year average in 2000 59
(2001) 25 in 2002 51 (2003) 49 (2004) 105 (2005) 71 (2006) 68 (2007)
and 105 (projected for 2008) The region has also experienced a 08o C rise in temperature
over the past 50 years which has resulted in increasing losses of snowpack exacerbating
drought conditions through evaporat ion vegetat ion st ress water demands reduced soil
moisture It is estimated that 12-15 years of average conditions (based on the past 100
years) are needed to restore the basin to pre-2000 levels This recent experience il lustrates
that lsquocriticalrsquo conditions already exist in the basin (Pulwarty et al 2005)
Figure 2 Colorado River Basin
Estimates from 12 AR4 models show that with increased warming and evaporat ion
concurrent runoff decreases could reach 20 by 2050 and 30 at the end of 21st century
(Milly et al 2005) Under such condit ions together with projected withdrawals the
requirements of the Colorado River Compact may only be met 60ndash75 of the time by
2025 (Christensen et al 2004) Some studies estimate that by 2050 the average moisture
conditions in the south-western USA could equal the conditions observed in the 1950s
6
Con formato Ingleacutes
(Reino Unido)
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Only a small portion of the full Colorado Basin area (about 15) supplies most (85) of
its flow The Colorado system has experienced below aver age condit ions in 7 of the last 9 years Unt il the last few years the expectat ion of Colorado River managers was that
s ignificant shortages in the Lower Basin would not occur unt il after 2030 Natural inflows
into the basin have been poor for several years 62 of the 30-year average in 2000 59
(2001) 25 in 2002 51 (2003) 49 (2004) 105 (2005) 71 (2006) 68 (2007)
and 105 (projected for 2008) The region has also experienced a 08o C rise in temperature
over the past 50 years which has resulted in increasing losses of snowpack exacerbating
drought conditions through evaporat ion vegetat ion st ress water demands reduced soil
moisture It is estimated that 12-15 years of average conditions (based on the past 100
years) are needed to restore the basin to pre-2000 levels This recent experience il lustrates
that lsquocriticalrsquo conditions already exist in the basin (Pulwarty et al 2005)
Figure 2 Colorado River Basin
Estimates from 12 AR4 models show that with increased warming and evaporat ion
concurrent runoff decreases could reach 20 by 2050 and 30 at the end of 21st century
(Milly et al 2005) Under such condit ions together with projected withdrawals the
requirements of the Colorado River Compact may only be met 60ndash75 of the time by
2025 (Christensen et al 2004) Some studies estimate that by 2050 the average moisture
conditions in the south-western USA could equal the conditions observed in the 1950s
6
Con formato Ingleacutes
(Reino Unido)
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Such changes could oc cur as a consequence of increased temperatures (through increased
sublimat ion evaporation and soil moisture reduction) even if precipitat ion levels re main
fairly constant Some researchers argue that these assessments because of model choice and assumed adaptations may actually underestimate future declines
By 2004 the drought began to overwhelm planning assumpt ions derived from previous
projections of impacts from analogues of historical e xtremes Flawed demand estimates
especially induced during drought were key to these divergent outcomes The resulting
awareness was that climate change together with increasing development pressures would
result in drought impacts that are beyond the institutional experience in the region and
would exacerbate conflict s among water users In De cember 2007 new guidelines
establishing rules for shortages were int roduced by the US Secretary of the Interior
(USDoI 2007) specifying who will acc ept reduct ions and when they take them This is essential for prudent water planning in t imes of drought and included new operational rules
for coordinated operation of Lake Powell and Lake M ead (the two largest reservoirs in the
US) encouraging new initiat ives for water conservation and to begin a process of
explicitly incorporating the role of climate change into planning and operations The
guidelines provide a mechanism that encourages water conservat ion in Lake Mead in the Lower Basin to minimize the likelihood and severity of potent ial future shortages through
2026
Water managers in Colorado Basin states are explicit ly considering how to incorporate the
potent ial effects of climate change into specific designs and multi-s takeholder set tings Early warnings of changes in the physical and social systems and of thresholds or critical
points that affect integrated mana gement (watershed coastal etc) p riorities become
important One such innovat ion the National Integrated Drought Information System
(wwwdroughtgov) was signed into US Public Law (109-430) in 2006 NIDIS is the
direct result of the Co lorado Basin drought discussions at the state level and project ions of future conditions resulting from climate change It coordinates previously independent
systems of informat ion providers users and organized interests on monitoring and
forecast ing drought risk and impacts assessments and communicat ion and preparedness
planning
M ost decision makers engaged in cooperat ive strategies addr essing water scarcity have
repeatedly stated the need for integrated mana gement of e xisting supplies and
infrast ructure (Pulwarty 2003) What is dist inctive about the Colorado is that the inclusion
of s takeholders in water management policy has become the norm However regardless of
how robust civil-society institutions may be severe drought (or flooding) can expose underlying institut ional barriers to effective cooperat ion Thus for large river basins the
goal should not be to reify some part icular scale of analysis (eg local regional) but to
uncover what is needed at each of these scales and to address impediments and
opportunities to the flow of informat ion and innovations between the decision making
nodes
Case study The Okanagan
A case study on the implications of climate change for water management in the Okana gan
region of British Columbia Canada i llust rates a communications pathway designed to
7
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
t ranslate long term globa l climate change scenarios into loca l water management risks and
to lay the foundation for const ructing a decision support tool for the Okanagan watershed
The app roach taken was to organize and maintain a PIA in which researchers and local experts shared informat ion and perspectives on various aspects of this long-term issue
(Cohen Neilsen and Welbourn 2004 Cohen et al 2006 Cohen and Neale 2006)
The Okanagan is a semi-arid r egion in southern Brit ish Columbia (Figure 3) In 2003 the
region e xperienced a drought with accompanying forest fires which dest royed homes in
several communities (Filmon 2003) A gainst this background of increased awar eness of
the effects of climate ext remes increasing local attent ion was directed at a climate change
impacts and adaptat ion study that had been init iated in 1999 and was evolving into a PIA
The first step was to apply a set of climate change scenarios to a hydrology model
calibrated for the Okanagan (Cohen et al 2004 Merritt et al 2006)
Figure 3 Okanagan Basin (from Cohen et al 2004)
The resulting hydrographs (Figure 4) became an important communications mechanism linking global climate change to impacts on st reamflow in terms well understood by local
water professionals and major users groups The message from this s tep was that climate
change would lead to earlier seasonal peak flow due to ear lier snowmelt and this would
result in a longer minimum flow period during the growing se ason Total annual
s treamflow would also decrease from historic averages Local water supplies largely consist of many small reservoirs which capture and store spring snowmelt for release
throughout the year How would reservoir management adjust to scenarios of climate
change and population growth
The climate change scenar ios were applied to a crop water demand model developed for local conditions Projected changes in crop water demand were compared with scenario
changes in water supply to determine potential changes in the frequency of high risk years
ie years with low supply and high demand (Figure 5) At the same t ime scenarios of
domestic water demand were also constructed incorporating potential changes in climate
8
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
population and implementat ion of demand side management opt ions (Neale et al 2007)
Throughout the process of scenario construct ion local water professionals and interests
(eg irrigators habitat protect ion groups aboriginal communities municipal governments and regional planners) were partners in a shared learning process with the research team
This laid the foundat ion for moving beyond the scenarios themselves towards creat ing a
decision support tool the Okanagan Sustainable Water Resources M odel (OSWRM)
which could be used to explore various long-term response opt ions within scenarios of
climate change and population growth This group-based approach to model
0
05
1
15
2
25
3
35
1- Jan 1- Mar 1-Ma y 1-Jul 1-Sep 1-Nov
Sim
ula
ted
D is
cha
rg
e(c
um
ecs
)
Base
202 0s
205 0s
208 0s
Figure 4 Ok anagan hydrology scenario based on the CGCM2 -- A2 cl imate scenario
example from Whiteman Creek (Merritt et al 2006)
const ruction combined local knowledge and scenar io outputs using a STELLATM
plat form to offer a tool for desktop experimentat ion of various combinat ions of scenarios
and response options (Langsdale et al 2007) Results from other study components
provided important inputs for OSWRM (Cohen and Neale 2006)
One of the results from the first version of OSWRM is that an adaptation portfolio of water
demand mana gement measures would only part ially offset the increasing frequ ency of
water deficit conditions (Table 2) The overall reliability of the Okanagan system to meet demand decreases from a historic rate of 98 to 72-82 in the 2050s with climate change
being the major cause of this decrease (Langsdale et al 2007) as illustrated by
comparison with the lsquono climate changersquo scenario Expansion of supplies through greater
use of the regionrsquos lakes may be feasible but it will be a difficult task to avoid depleting
the resource as well as to pay for the addit ional costs of dist ribution and water treatment This will become an important challenge for long term water governance and sustainable
development in the region (Cohen and Neale 2006)
9
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Trout Creek supplydemand HadCM3-A2
0
2
4
6
8
10
12
14
0 50 100 150 200 250
Annual flow (m 3
x 10 6 )
Cro
p w
ate
r d
em
an
d (
m 3 x
10 6
) Historic
2020s
2050s
2080s
Figure 5 Scenario changes in balance betwe en water supply and crop water demand
Okanagan ndash example from Trout Creek for HadCM3 ndash A2 climate change scenario
(Neilsen e t al 2004 2006)
Table 2 Number of years out of 30 where water demand equals or exceeds water supply
in the Okanagan Basin assuming high population growth scenario (Langsdale et al
2007) Moderate adaptation scenario includes expanded use of residential demand
management inc luding metering with pric es charged at increasing b lock rates public
education and reduction of agricul tural demand by 6 through improved water use
efficiency
SCENAR IO Histor ic 20 20rsquos 2050rsquos
No climate change
Had CM3 ndash A2
3
--
6
11
10
22
Had CM3 ndash A2 Moderate Adaptation
CGCM2 ndash B2
--
--
9
8
19
14
CSIRO Mk2 ndash B2 -- 14 21
OSWRM is not a ldquoforecastingrdquo model however and one of the cont inuing
communications challenges is to ensure consistency in descript ion of what this tool and
other decision models can and cannot do This too is part of the shared learning
experien ce It is hoped that local part icipants in this process will become communications
partners providing local context for broader public discourse about climate change effects
and response options in the Okanagan region Increased awareness of potent ial future
water supply problems led the regionrsquos water authority the Okanagan Basin Water Board
10
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
to init iate a major assessment of the basinrsquos water balance (wwwobwbca ) Also a
regional planning authority explicit ly included cl imate change scenarios in a water
mana gement plan for one of the sub-basins (Summit Environmental 2004)
5 Conclusions
A major challenge in the coming decades given commit ted climate change already in the
system will be maintaining water supplies for environmental services which support
economies throughout the United States and Canada There are signif icant barriers to
implementing adaptat ion in complex sett ings These barriers include the inabil ity of natural
systems to adapt at the rate and magnitude of change as wel l as cognit ive behavioural
social and cultural constraints There are also significant gap s in knowledge for adaptat ion as well as imp ediments to flows of knowledge and informat ion relevant for decision
makers In addition the scale at which reliable informat ion is produced (ie global) does
not always match with what is needed for adaptation decisions (ie watershed and local)
The mana gement of the cumulative impacts of e xtremes (droughts floods hurricanes etc)
usually occurs through react ive crisis-driven approaches The Colorado River Basin experien ce shows that change in managing climate-re lated risks (in this drought) may be
most readily accomplished when (1) a focusing event (climatic l egal or social) occurs
and creates widespread public awareness (2) leadership and the public are engaged and
(3) a basis for integr ating research and mana gement is established
As the Okanagan case and others (see Pulwarty and M elis 2001) show a key component
in developing such an integrated framework is the ability of practitioners themselves to
manipulate data and to reconc ile scient ific claims with their own knowledge This plays
important roles in their choices There is a st rong need for the inquiry into and
development of interact ive approaches between decisive (policy and operat ions) and nonshydecisive (research) part icipants to take advantage of new opportunit ies as systems evolve
Long -term cumulat ive environmental p roblems can seldom be dealt with by single
discrete actions or policies but respond only to continuing sustained efforts at learning
supported by steady public attent ion and visibility Even where informat ion on thresholds
is available usable and can produce positive result s the value of such informat ion may
still be overwhelmed by rates and magnitudes of social economic and environmental
changes There is also the danger of disempowerment of stakeholders if engagement in
PIA does not result in actions consistent with the assessment rsquos findings (Yohe et al 2007)
If lessons learned are to be actually applied then a lar ge part of the scientific adaptation
goal should be to inform processes that can decrease impediments to the flow of
informat ion and innovations One example of a program that links an understanding of the
policy contexts (as elucidated in the Colorado case) with supporting a dynamic dialogue
between researchers and pract it ioners (as in the Okanagan case) is the NOAA Regional integrated Sciences and
Assessments Program (Pulwarty et al 2009) The RISA efforts show that enabling
successful informat ion intervent ions at any point in time requires a critical mass of
accessible credible and legit imate information It also requires the capacity to apply
knowledge and evaluate consequences of its use This would entail (i) Clarification of
11
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
mana gement goals at the human-environment interface and (ii) Construct ion of a
cooperative foundation between research and management to dist il lessons from
comparative appraisals of current and past pract ices and to develop effective participatory processes to ensure validity and acceptability of projections of changes in relevant system
outputs ie robust information in practical contexts
Develop ing such an integrated basis for managing water resources as climate changes
requires a mixed port folio of approaches including
bull Mechanisms for ant icipatory coordination within development plans (eg adaptive
manage ment within integrated watershed and coastal zone plans)
bull Developing usable climate risk mana gement triggers for early warning of potent ial
conflict s in agriculture water energy health environment and coastal zones
bull Developing and employing water efficient technologies
bull Actively engaging communities and states in mainst reaming climate informat ion into
practice though part icipatory mechanisms such as the co-development of scenarios
that link climate and development goals
bull Invest ing in career opp ortunities for climate change adaptation within local
governments and water-based utilities integrated within long-term planning for
sustainability
Future needs include greater exploration of alternate integration models and overlying
policy structures that could together facilitate and sustain shared learning of climate
change adaptation This would ult imately t ransform this from a project-based activity to a
long-term service A complementary need would be for better understanding of communication for cross-scale adaptat ion decisions that may emer ge within one level of
government multi-levels of government and at the watershed scale with it s mix of
governments and utilit ies This would help to maintain institutional memory of climate
change adaptat ion thereby improving adaptive capacity as we face the challenge of
mana gin gwatersheds in the face of climate change
References
Adge r WN S Agrawala MMQ Mirza C Conde K OrsquoBrien J Pulhin R Pulwarty B Smit and K Takahashi 2007 Assessment of adaptation practices options
constraints and capacity Climate Change 2007 Impacts Adaptation and Vulnerability
Contribution of Work ing Group II to the Fourth Assessment Report of the
Intergovernmental Panel on Climate Change ML Parry OF Canziani J P
Palutikof PJ van der Linden and CE Hanson Eds Cambridge University Press
Cambridge UK 717-743
Arne ll N C Liu R Compagnucci L da Cunha K Hanaki C Howe G M ailu I
Shiklomanov and E Stakhiv 2001 Hydrology and water resources In Climate
Change 2001 Impacts Adaptation and Vulnerabili ty Contribution of Working Group
II to the Third Assessment Report of the Intergovernmental Panel on Cl imate Change [McCarthy J O Canziani N Leary D Dokken and K White (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 191- 233
12
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Barnett TP JC Adam and DP Lettenmaier 2005 Potential impacts of a warming
climate on water availability in snow-dominated regions Nature 438 303-309
Benne tt V and L Herzog 2000 US-Mexico Borderland Water Conflicts and Institut ional Change A Commentary Natural Resources Journal 40 973-989
Christensen NS Wood AW Voisin N Lettenmaier DP and RN Palmer 2004
Effects of Climate Change on the Hydrology and Water Resources of the Colorado
River Basin Climatic Change 62 337-363
Cohen S and M Waddell in press Climate Change in the 21st
Century M cGill-Queenrsquos
University Press Montreal
Cohen S and T Neale (eds) 2006 Part icipatory integrated assessment of water
manage ment and climate change in the Okanagan Basin British Columbia Final
report Project A846 Submit ted to Natural Resources Canada Ot tawa Environment
Canada and University of British Columbia Vancouver 188p Cohen S D Neilsen and R Welbourn (eds) 2004 Expanding the dialogue on climate
chan ge amp water management in the Okanagan Basin Brit ish Columbia Final Report
Project A463433 submitted to Climate Change Act ion Fund Natural Resources
Canada Environment Canada and University of British Columbia Vancouver 230
pp Cohen S D Neilsen S Smith T Neale B Taylor M Barton W Merritt Y Alila P
Shepherd R McNeill J Tansey J Carmichael and S Langsdale 2006 Learning with
Local Help Expanding the Dia logue on Climate Change and Water Management in
the Okanagan Region Brit ish Columbia Canada Climatic Change 75 331-358
Cohen S R de Loumle A Hamlet R Herrington L Mortsch and D Shrubsole (2004) Integrated and Cumulative Threats to Water Availability In ldquoThreats to Water
Availability in Canadardquo Environment Canada National Water Resear ch Inst itute
Burlington Ontario 117-127
Cohen S J KA Miller AF Hamlet and W Avis 2000 Climate change and resource
manage ment in the Columbia River Basin Water International 25 2 253-272 Fi lmon G and review team 2004 Firestorm 2003 ndash Provincial Review Submitted to
the Government of Brit ish Columbia by the Firestorm 2003 Provincial Review Team
(G Filmon Chair) Available at
httpwww2003firestormgovbccafirestormreport FirestormReportpdf
Hennessy K B Fitzharris BC Bates N Harvey SM Howden L Hughes J Salinger
and R Warrick 2007 Australia and New Zealand Climate Change 2007 Impacts
Adaptation and Vulnerability Contribu tion of Working Group II to the Fourth
Assessment Report of the Intergovernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge
University Press Cambridge UK 507-540 Klein RJT S Huq F Denton TE Downing RG Richels JB Robinson FL Toth
2007 Inter-relat ionships between adaptation and mitigation Climate Change 2007
Impacts Adaptation and Vulnerability Contribut ion of Working Group II to the Fourth
Assessment Report of the Intergov ernmental Panel on Climate Change M L Parry
OF Canz iani J P Palut ikof PJ van der Linden and CE Hanson Eds Cambridge University Press Cambridge UK 745-777
Kundze wicz ZW LJ M ata NW Arnell P Doumlll P Kabat B Jimeacutenez KA Miller T
Oki Z Şen and IA Shiklomanov 2007 Freshwater resources and their mana gement
In Climate Change 2007 Impacts Adaptat ion and Vulnerability Contribution of
Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on
13
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Climate Change [Parry M O Canziani J Palutikof and P van der Linden (eds)]
Cambridge University Press Cambridge United Kingdom and New York NY U SA
173-210 Langsdale S M A Beall J Carmichael S Cohen and C Forster 2007 An exploration
of water resources futures under climate change using system dynamics modeling
Integrated Assessment Journal 7 1 57-79
Merri tt W Y Alila M Barton B Taylor S Cohen and D Neilsen 2006 Hydrologic
response to scenarios of climate change in subwatersheds of the Okanagan Basin
British Columbia Journal of Hydrology 326 79-108
Milly P C D K A Dunne and A V Vecchia 2005 Global pat tern of t rends in
streamflow and water availability in a changing climate Nature 438 347-350
Milly PCD J Betancourt M Falkinmark RM Hirsch ZW Kundzewicz DP
Lettenmaier and RJ Stouffer 2008 Stat ionarity is dead whither water management Science 319 573-574
Neale T J Carmichael and S Cohen 2007 Urban Water Futures A multivariate
analysis of populat ion growth and climate change impacts on urban water demand in
the Okanagan Basin BC Canadian Water Resources Journal 32 315-330
Nei lsen D Smith C A S Frank G Koch W Ali la Y Merrit t W Taylor W G Barton M Hall J W and Cohen S J 2006 Potential imp acts of climate change on
water availability for crops in the Okanagan Basin British Columbia Can J Soil
Science 86921-936
NeWater New Approaches to Adapt ive Water M anagement under Uncertainty
[Accessible ht tpwwwnewaterinfo] [Accessed 04072008] Pulwarty R and Melis T 2001 Climate extremes and adaptive management on the
Colorado River J Environmental Management 63 307-324
Pulwarty R 2003 Cl imate and water in the West Science informat ion and decision
making Water Resources (Update) 124 4-12
Pulwarty R Jacobs K Dole R 2005 The hardest working river Drought and crit ical water problems on the Colorado In D Wilhite (ed) Drought and Water Crises
Science Technology and M anagement Taylor and Francis Press 249-285
Pulwarty R Simpson C and C Nierenber g 2009 The Regional Integrated Scienc es
and Assessments (RISA) Program Crafting effective assessments for the long haul In
Knight C and J Jager 2009 (eds) Integr ated Regional Assessment of Climate
Change Cambridge University Press (in press)
Sheppard S RJ 2005 Landscape visualisat ion and climate change The potential for
influencing percept ions and behaviour Environmental Science and Policy 8 637-654
Summit Environmental Consultants Limited 2004 Trepanier Landscape Unit (Westside)
water management plan Regional Dist rict of Central Okanagan and British Columbia Ministry of Sustainable Resource M anagement Kelowna 300 pp
Tansey J J Carmichael J R vanWynsberghe R and J Robinson 2002 The future is
not what is used to be Part icipatory integrated assessment in the Georgia Basin Global
Environmental Change 12 97-104
USDoI 2007 Colorado River Interim Guidelines for Lower Basin Shortages and Coordinated Operations for Lakes Powell and Mead Available from Bureau of
Reclamation 61 pp
ht tp wwwusbrgovlcregionprogramsst rategiesRecordofDecisionpdf
van den Be lt M 2004 Mediated Modeling A System Dynamics Approach to
Environmental Consensus Building Washington Island Press
14
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15
Climate change and water Adaptation
Yohe GW RD Lasco QK Ahmad N Arnell SJ Cohen C Hope AC Janetos and
RT Perez 2007 Perspectives on climate change and sustainability In Climate
Change 2007 Impacts Adaptation and Vulnerabili ty Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
[Parry M O Canziani J Palut ikof and P van der Linden (eds)] Cambridge
University Press Cambridge United Kingdom and New York NY U SA 811-841
15